Zusammenfassung
Mindestens 90% aller Fälle mit umschriebenen intrakraniellen (supratentoriellen) Prozessen führen zu Veränderungen im EEG. Vor Einführung der Computertomographie hatte das EEG in der Diagnostik lokaler zerebraler Erkrankungen einen hohen Stellenwert. Denn der nächste Schritt in der Diagnostik war dann bereits ein operativer Eingriff, nämlich die zerebrale Angiographic oder die Luftenzephalographie. Heute hat angesichts der bildgebenden neuroradiologischen Methoden (CCT, MRT) das EEG in der Primärdiagnostik umschriebener Hirnprozesse an Bedeutung verloren.
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Literatur
Arfel G, Fischgold H (1961) EEG-signs in tumours of the brain. Electroencephalogr Clin Neurophysiol 19 (Suppl): 36–50
Ball GJ, Gloor P, Schaul N (1977) The cortical electro-microphysiology of pathological delta waves in the electroencephalogram of cats. Electroencephalogr Clin Neurophysiol 43: 346–361
Cobb WA, Guiloff RJ, Cast J (1979) Breach rhythm: The EEG related to skull defects. Electroencephalogr Clin Neurophysiol 47: 251–271
Cordeau J-P (1959) Monorhythmic frontal delta activity in the human electroencephalogram: A study of 100 cases. Electroencephalogr Clin Neurophysiol 11: 733–746
Daly DD (1968) The effect of sleep upon the electroencephalogram in patients with brain tumors. Electroencephalogr Clin Neurophysiol 25: 521–529
Daly DD (1975) Brain tumors and other space occupying processes. In: Handbook Electroenceph Clin Neurophysiol, vol 14. Elsevier, Amsterdam, pp 5–10
Daly DD, Thomas JE (1958) Sequential alterations in the electroencephalograms with brain tumors. Electroencephalogr Clin Neurophysiol 10: 395–404
Daly DD, Whelan JL, Bickford RG, McCarty CS (1953) The electroencephalogram in cases of tumors of the posterior fossa and third ventricle. Electroencephalogr Clin Neurophysiol 5: 203–216
Decker DA Jr, Knott JR (1972) The EEG in intrinsic su-pratentorial brain tumors: A comparative evaluation. Electroencephalogr Clin Neurophysiol 33: 303–310
Duensing F (1948) Die Alphawellenaktivierung als Herdsymptom im Elektroencephalogramm. Nerven-arzt 19: 544–552
Duensing F (1950) Über periodische pathologische Potentiate subcorticaler Herkunft bei Hirngeschwüls-ten. Arch Psychiat Nervenkrankh 185: 539–570
Fariello RG, Orrison W, Blanco G, Reyes PF (1982) Neuroradiological correlates of frontally predominant intermittent rhythmic delta activity (FIRDA). Electroencephalogr Clin Neurophysiol 54: 194–202
Fischer-Williams M, Last SL, Lyberi G, Northfield DWC (1962) Clinico-EEG study of 128 gliomas and 50 intracranial metastatic tumours. Brain 85: 1–46
Fischgold H, Zalis A, Buisson-Ferey J (1961) General comments on the use of the EEG in the diagnosis and localization of cerebral tumours. Electroencephalogr Clin Neurophysiol 19 (Suppl): 51–74
Gastaut JL, Michel B, Hassan SS, Cerda M, Bianchi L, Gastaut H (1979) Electroencephalography in brain edema (127 cases of brain tumor investigated by cranial computerized tomography). Electroencephalogr Clin Neurophysiol 46: 239–255
Gilmore PC, Brenner RP (1981) Correlation of EEG, computerized tomography, and clinical findings. Study of 100 patients with focal delta activity. Arch Neurol 38: 371–382
Gloor P, Ball G, Schaul N (1977) Brain lesions that produce delta waves in the EEG. Neurology 27: 326–333
Goldensohn ES (1984) Das EEG bei fokalen, intrakra-niellen Lasionen. In: Klass DW, Daly DD (Hrsg) Klinische Elektroenzephalographie. Fischer, Stuttgart New York, S 279–310
Hasegawa K, Aird RB (1963) An EEG study of deep-seated cerebral and subtentorial lesions in comparison with cortical lesions. Electroencephalogr Clin Neurophysiol 15: 934–946
Hess R (1961) Significance of EEG-signs for location of cerebral tumours. Electroencephalogr Clin Neurophysiol 19 (Suppl): 75–110
Hess R (1962) Die bioelektrischen Zeichen der cere-bralen Massenverschiebung bei Hirntumoren. Schweiz Med Wochenschr 92: 1537–1542
Jaffe R, Jacobs L (1972) The beta focus: Its nature and significance. Acta Neurol Scand 48: 191–203
Jasper H, Van Buren J (1953) Interrelationship between cortex and subcortical structures: clinical electroen-cephalographic studies. Electroencephalogr Clin Neurophysiol 4 (Suppl): 168–188
Klass DW, Daly DD (1984) Klinische Elektroenzephalographie. Fischer, Stuttgart, S 93ff
Krenkel W (1974) The electroencephalogram in tumours of the brain. In: Handbook of Clinical Neurology, vol 16: Tumours of the brain and skull, part I. Elsevier, Amsterdam, pp 418–454
McCormick GF, Chi-Shing Z, Heiden J (1982) Cysticer-cosis cerebri. Review of 127 cases. Arch Neurol 39: 534–539
Meyer JG, Hofmann M, Weber E (1978) Blockade und Aktivierung fokaler EEG-Aktivitaten durch Augen-offnung und Augenschlufi. Z EEG-EMG 9: 46–52
Michel B, Gastaut JL, Bianchi L (1979) Electroencepha-lographic cranial computerized tomographic correlations in brain abscess. Electroencephalogr Clin Neurophysiol 46: 256–273
Nau H-E, Bock WJ, Clar HE (1978) Electroencephalo-graphic investigations in sellar tumours, with special regard to different methods of operative treatment. Acta Neurochir 44: 207–214
Normand MM, Wszolek ZK, Klass DW (1995) Temporal intermittent rhythmic delta activity in electroencephalograms. J Clin Neurophysiol 12: 280–284
Pfürtscheller G, Wege W, Sager W (1980) Asymmetrien in der zentralen a-Aktivitat (My-Rhythmus) unter Ruhe- und Aktivitatsbedingungen bei zerebrovasku-laren Erkrankungen. Z EEG-EMG 11: 63–71
Prior PF (1968) Electroencephalographic studies in patients after removal of intracranial meningioma. Acta Neurol Scand 44: 107–123
Riemer G, Hansen HC, Theis O, Kunze K (1998) Der Wert der Elektroenzephalographie für die Hydroce-phalusdiagnostik bei Subarachnoidalblutungen. Klin Neurophysiol 29: 37–45
Rowan AJ, Rudolf NDeM, Scott DF (1974) EEG prediction of brain metastases: A controlled study with neuropathological confirmation. J Neurol Neurosurg Psychiatry 37: 888–893
Schaul N, Gloor P, Gotman J (1981) The EEG in deep midline lesions. Neurology 31: 157–167
Scollo-Lavizzari G (1970) The effect of sleep on electroencephalographic abnormalities at a distance from the lesion. Eur Neurol 3: 65–87
Scollo-Lavizzari G, Matthis H (1981) Frontal intermittent rhythmic delta activity. A comparative study of EEG and CT scan findings. Eur Neurol 20: 1–3
Thie A, Zschocke S (1988) Localized abnormal activation of EEG rhythms (including breach rhythm) following craniotomy. Electroencephalogr Clin Neurophysiol 70: 73P
Van der Drift JHA, Magnus O (1961) The value of the EEG in the differential diagnosis of cases with cerebral lesions. Electroencephalogr Clin Neurophysiol 19 (Suppl): 183–196
Van der Drift JHA, Magnus O (1961) Primary thalamic lesions. Electroencephalogr Clin Neurophysiol 19 (Suppl): 125–137
Vignaendra V, Ghee LT, Chawla J (1975) EEG in brain abscess: Its value in localization compared to other diagnostic tests. Electroencephalogr Clin Neurophysiol 38: 611–622
Zschocke S, Heidrich V, Kuhlmann E (1990) Mapping des Spontan-EEG bei HerdStörungen. Z EEG-EMG 21: 233–242
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Zschocke, S. (2002). Herdstörungen. In: Hansen, HC. (eds) Klinische Elektroenzephalographie. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-662-08106-8_9
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